DE3005462A1 - Roof-mounted solar energy absorber - has elements in common frame above energy-conductive plate with brine passages in ribs - Google Patents

Abstract

The roof-mounted absorber comprises flat thin-walled elements transmitting solar and environmental energy to a piping system incorporating a heat pump. The elements are assembled together on the module system in a common frame, inside which is an energy-conductive plate parallel to the base surface. The surface of this plate away from the latter has parallel energy-conductive ribs, while that towards it has formed in it passages for the brine used to conduct the heat. The passages together can form a zigzag pattern connected to the inlet and outlet at opposite ends.

Description

The invention relates to a roof absorber that

composed of thin-walled and flat elements, the solar and absorb environmental energy and transfer it to a brine - the one at its bottom provided pipe system with mutually parallel and interconnected Channels flows - one connected to the pipe system via a feed and inlet Feed in the heat pump directly or via a storage tank.

Such absorbers are also known under the name nEnergiedachn are more versatile than those that essentially depend on the warm season of the year Solar panels. While the latter only use direct solar heat, and are therefore essentially only suitable for swimming pools or service water Absorber roofs their energy requirements from the sun as well as from rain, fog, Wind d cover the air so that it is also suitable for heating living spaces suitable. Absorbent roofs are available on the market in a wide variety of variants. Flat structures with a shape adapted to the shape of the roof are most widespread. But also so-called energy stacks or independent of the fastening in the roof area, Energy fences or geothermal batteries working on the same principle are in use.

The 'object of the invention is eirmal in the widest possible range Usability and on the other hand in an optimal diversification of the generic Roof absorbers with the help of standardized elements to achieve a large and surface facing the energy absorption on all sides and in as little as possible Energy loss to the environment. This object is achieved according to the invention solved that the absorber elements in a common frame like a modular system are taken and within the frame and with a small distance on all sides one Energy conductor plate arranged running parallel to the bottom surface is, on the side facing away from the bottom surface rib-shaped, to each other likewise parallel energy conductor elements are attached, while at their the side facing the bottom surface, the channels for the brine supply are incorporated. In such a monotonous bsorbern, which usually builds only part of a roof chimney, window, eaves and verge cladding are unnecessary. If necessary, however, it is also possible to use several such modules - up to the complete Covering the roof - to be joined together. Absorbers of this type have little Mass, a large surface and little stress on the roof structure. As a result of that the heat conductor platform has a gap all around compared to the sheet metal frame and also accessible from its underside, its entire surface, which is still through Ribbed elemonte attached to it for the absorption of energy utilized.

On 1 m2 there is about 10 m2 of waste disposal area compared to about 2 m2 with the conventional systems. In addition, the rib-shaped ones have Elements have the advantage that, due to their vertical arrangement, they consume little energy Lose the environment. The fully integrated sewer system also loses - at the transition from the absorber to the transport medium "brine" - only negligibly little in terms of energy.

In addition, the inclusion of the channels in the frame requires little Diameter, so that overall only a little let is present and within the channels only a little brine flows.

This has the advantage that the system reacts very quickly able.

The ends of the parallel duct sections are advantageously each in pairs - from the outside to the free - with connecting strands of equal length to one another coupled to the inlet and outlet. The same length and volume the Channels and the resulting equal pressure conditions within the channels cause the energy to be dissipated evenly and completely. Under certain It would also be conceivable that the parallel duct strands would be one below the other in the manner of a meander line and the two ends of the meander line with the front and Feed are coupled.

A further development of the invention provides that the power circuit board made of two different sheets of metal connected to one another with the aid of a separating agent Hardness exists and the channels in the energy circuit board are blown under pressure are. It is recommended that the plate has a softer consistency, which is targeted released pressure yields first, so that the kanal.rörmigen bulges in it result in facing the bottom side of the frame.

The rib-shaped energy conductor elements and the spacers between the floor surface and the Enorgieleiterpiatte run in the direction of the roof slope and have an L-, T-, U-, V- or Z-shaped profile; she stood on the energy circuit board via a screw, rivet, plug, adhesive or Welded joint attached. The spacers are opposite the floor area - with e.g. plastic caps resting on their free ends - against contact corrosion and designed to be insulated from heat.

It is then advantageous if the rib-shaped elements in the direction the roof pitch are arranged and at its lower end one of the upper edge off to return or

Sloping upwards to the roof with a water baffle underneath exhibit. In this way, in the lower part of the frame below, the rib-shaped elements that are necessary for the removal of rainwater and condensation water Attach the Leu plate without significantly reducing the energy extraction area and the appearance of the roof absorber would be visually impaired.

As for the insulation problems between the roof absorbers and in relation to the deeking frame, it is advantageous that the sheet metal frame is crimped at its free end substantially at right angles inward and on the resulting two legs - possibly with the interposition of the Flashing frame end - a form-fitting cover frame is attached. this expediently happens at least in the area of the flanged end of the sheet metal frame by means of a sealant. With several arranged behind and / or next to one another Absorbers and / or collectors are the mutually facing legs of the associated adjacent cover frame as well as the other two legs and one covering them thin metal strips glued together with sealing compound. In this context It is also important that hooks on the outside of the bottom surface of the frame are attached are attached to the roof battens. This simple and yet safe type of fastening among each other as well as on the roof or the roof battens contributes to the fact that absorber under sic or mixed with solar collectors according to the type of the modular system are. Because of the risk of corrosion comes the sealing measures as well as in the Usually screwless and rivetless connection of the individual elements is important.

According to a further; i Merlanal of the invention, the absorber Frame, cover and spacer elements made of aluminum, copper, zinc, galvanized steel or aluminum or copper alloys, and can be provided with an anodized layer while silicone is primarily used as the sealant.

Depending on whether a roof is being replaced later or already during the Baus is to be equipped with the device according to the invention, it is necessary that the inlet and the flow of the piping leading to the heat pump above or below of the roof opens into the channels.

Exemplary embodiments are given below with reference to a drawing the invention explained in more detail, the corresponding in the individual figures Parts have the same reference numerals. It shows Fig. 1 a longitudinal section through the absorber according to the invention with piping located under the roof, FIG. 2 a Longitudinal section according to FIG. 1 with piping located above the roof, FIG. 3 shows a Cross-section a-a through the embodiment according to FIG. 1, FIG. 4 is a perspective Partial representation of two ribbed absorber elements, FIG. 5 a screwless one elastic connection between two absorbers and / or collectors containing Blechrahmeii and FIG. 6 shows that in the underside of the energy parent plate shown in FIGS. 9, 1 to 3 integrated, brine-carrying pipe system.

The absorbers 1 of FIGS. T and 2 are each connected via the Ilaten 21 the slats 3 of a sloping roof connecting the rafters 22 are suspended. Custody 2 and sealing strips 4 establish the connection to the bricks 5. The two embodiments differ only in that in the first one does not differ from the drawing shown heat pump leading inlet 6 and the flow 7 of the piping below of the roof and in the other open into the channels 8 above the roof.

The structure of the absorber can be seen most clearly in Fig. 3: The box-shaped frame 9 has a bottom surface 10. Parallel to the latter and The power circuit board runs with a small gap on all sides within the frame 11, 12. It is made up of two connected by means of a trem Sheets 11 and 12 of different hardness together. In the lower plate 12 were Channel strands 8 running parallel to one another for receiving the brine under pressure blown into it. Since the sheet 12 is made of a softer material than the sheet 11, the channels are formed by bulges - in the direction of view - downwards.

As Figure 6 illustrates, these parallel duct strands are on their ends coupled in pairs to the supply and inlet 6 and 7, respectively. The couples become of the two outer ones, then of the two neighboring ones, etc. up to and including formed to the two inner ones. The connection is not made the shortest route, but all connecting strands are - by forming appropriate loops - of equal length. In other exemplary embodiments, it is also conceivable that the pipe system .Mäanderlinienfortn possesses, the energy circuit board is formed in one piece and provided with cast-in, subsequently drilled or indented channels is.

On the smooth side of the power circuit board facing away from the bottom surface 10 11, 12 are parallel to each other and running in the direction of the roof pitch, U-shaped profiled rib-shaped energy conductor elements i4 attached, as they are also shown in Fig. 4 can be found. In other examples, not shown in the drawing, you can L, T, V, Z or similar profiles can also be used without this would go beyond the scope of the invention. Opposite these elements on the underside of the energy conductor plate 11, 12 between this and the bottom surface 10 also U-shaped or similarly profiled spacers 15 attached, with the plastic caps sitting at their free ends i6 opposite the bottom surface 10 and the frame 9 are insulated against contact corrosion and heat. The energy conductor elements and the spacers 15 are each with the aid of the same Riveted connection 23 attached to the energy circuit board 11, 12 lying between them. In other exemplary embodiments, this would also be screw, plug, adhesive or Welded connections conceivable. As can be seen from FIGS. I and 2, the rib-shaped Elements i4 at their roof-related lower end one from the upper edge to the rear or roof outward sloping portion 17 under which the water baffle 18 is arranged. The latter catches the condensation of the ribs as well as those between rain falls on the ribs and directs it towards the gutter a The sheet metal frame 9 is at right angles in the last area of its free end bent inside. Is on the resulting two legs of the frame a so-called cap frame 13 of the same shape. In Figs. 1 and 3 is between sheet metal and cover frame, in FIG. 2 on the upper one - in the direction of view Legs of the frame attached to the roof storage 2 or pushed there. the The type of fastening itself can be seen from FIG Area of the bent-over upper end by means of the sealing compound 19 on the sheet metal frame 9 glued on. Of course, it is also possible to have the throw-over frame on both sides to fix.

If several absorbers and / or solar collectors are behind on a roof and / or arranged side by side (Fig. 3), the Xcweils are to be clcellrten each other Legs of the neighboring cover frames 13 are glued to one another by means of sealing gauges.

All absorbers, frame, cover and spacer elements are made of made of thin aluminum sheet, optionally provided with an anodized layer. Any weather-resistant plastic is suitable for the caps 16 and for the sealing compound Silicone rubber. In other exemplary embodiments, pure copper sheet, tin sheet, galvanized sheet steel or sheet metal made of copper or aluminum alloys and others Plastics and sealants or adhesives are used.

Overall, it can be done in the manner described above with just a few standardized individual elements made of comparatively cheap materials, weather-wise produce a hardly susceptible and nevertheless very effective absorber roof using the modular principle, this for new roofs as well as for subsequent installation or for Ewne mounting on finished sloping or flat roofs is suitable. During an assembly On finished pitched roofs, only the hooks 21 need to be under the tiles 5 be arranged in an outstanding manner.

In this case, the inlet and outlet can be made using special roof tiles, which are normally used for ventilation, connected to the in-house3 pipe system will. In the case of Flachdäbllern, however, it is recommended for the inclination of the invention Device the use of an appropriate framework. It goes without saying This modular system can also be installed independently of the roof of the house.

Claims (14)

Roof absorber PATENT CLAIMS Roof absorber made from thin-walled and flat elements that absorb solar and environmental energy they only have a pipe system provided on their underside via a Sol @ div parallel and interconnected channels - one flows through one The heat pump connected to the supply and inlet pipe system directly or via a Supply storage, so that the absorber elements are not indicated (11, 12, 14) in a common anxen frame (9, 10) in the manner of a modular system are taken and within the frame and with a small distance on all sides one Energy circuit board (11, 12) arranged to run parallel to the bottom surface (10) is, on the side facing away from the bottom surface (ii) rib-shaped, to each other likewise parallel yerlaufende further energy conductor elements (14) are attached while on the side facing the bottom surface, the channels (8) for guiding the brine are incorporated are. 2. Roof absorber according to claim 1, d a d u r c h g e -k e n n z e i c h n e t that the ends of the parallel channel strands in pairs - from the outside inwards - with connecting strands of equal length to each other at the inlet and outlet (6, 7) are coupled (Fig. 6). 3. Roof absorber according to claim 1, d a d u r c h g e k e n n z e i c h n e t that the parallel canal strands with one another like a meander line and the two ends of the meander line are coupled to the feed and inlet (6, 7). 4. Roof absorber according to one of the preceding claims, d a d u it is noted that the energy circuit board (ii, 12) au. two sheets of different hardness connected to one another with the help of a release agent and the channels (13) are blown into the energy circuit board under pressure are (Fig. 3). 5. Dachabsorbcr according to one of the preceding claims, d a -d u r c h g e k e n n z e i c h n et, oass the rib-shaped energy conductor elements * 14) as well as spacers (15) between the bottom surface (10) and the energy circuit board (11, 12) run in the direction of the roof pitch and an L-, T-, U-, V- or Z-shaped Have a profile. 6. Roof absorber according to one of the preceding claims, d a -du r c h g e k e n n n z e i c h n e t that the rib-shaped energy conductor elements (14) on the energy circuit board (ii, 12) via a screw, rivet, piece, adhesive or Welded connection (23) are attached (Fig. 3). 7. Roof absorber according to claim 5, d a d u r c h g e -k e n n z e i c. h n e t that the spacers (15) opposite the bottom surface (io) - with E.g. plastic calves (iG) resting on their free ends - against contact corrosion and are designed to be insulated from heat (FIG. 3). 8. Roof absorber according to one of the preceding claims, d a d u r c h g e k e n n n z e i c h n e t that the rib-shaped energy conductor elements (14) are arranged in the direction of the roof pitch and at its lower end one of the Upper edge of bevel (17) running backwards or upwards with clem underneath Have water baffle (18-) (Fig. 1 and 2). 9. Roof absorber according to one of the preceding claims, d a d u r c h g e k e n n n z e i c h n e t that the sheet metal frame (9) at its free end is umöldelt essentially at right angles inwards and to which it is attached resulting two legs - with the interposition of the roof storage (2) - a form-wise adapted cover frame (13) is attached (l: ig. 1 and 3). 10. Roof absorber according to claim 9, d a d u r c h g e -k e n n z e i c h n e t that the cap frame (13) at least in the area of the surrounding (irdelte End of the sheet metal frame (9) by means of a sealing compound (19) is attached (Fig. 2 and 5). 11. Roof absorber according to claim 9 and 10, d a d u r c h g e k e n n show that the facing legs of the cover frame (13) two adjacent absorbers (1) or one absorber and one collector as well the other two legs and a thin metal strip covering them (20) are glued together by means of sealing compound (19) (Fig. 5). 12. Roof absorber according to one of the preceding claims, d a d u r c h g e k e n n n z e i c h n e 4 that at cier Bodenfl.cbe (io) of the frame (9) outside hooks (21) for hanging on the roof battens (3) are attached (Fig. 1 and 2). 13. Roof absorber according to one of the preceding claims, d a d u It is noted that the Absozberelemente (11, 12, 14), the frame elements (10, 13), the cover elements (20) and the spacer elements (15) made of aluminum, copper, Zinc, galvanized steel or made of aluminum or copper alloys and with are provided with an anodized layer, while silicone is used as a sealing compound. 14. Dashabsorber according to one of the preceding claims, d a d u It is clear that the inlet (6) ad the flow (7) to the Piping leading to the heat pump above or below the roof in the ducts (13) open (Fig. 1 and 2).